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Current practices in UAS-based environmental monitoring

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Current practices in UAS-based environmental monitoring. / Tmušić, G.; Manfreda, S.; Aasen, H. et al.
In: Remote Sensing, Vol. 12, No. 6, 20.03.2020.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Tmušić, G, Manfreda, S, Aasen, H, James, MR, Gonçalves, G, Ben-Dor, E, Brook, A, Polinova, M, Arranz, JJ, Mészáros, J, Zhuang, R, Johansen, K, Malbeteau, Y, de Lima, IP, Davids, C, Herban, S & McCabe, MF 2020, 'Current practices in UAS-based environmental monitoring', Remote Sensing, vol. 12, no. 6. https://doi.org/10.3390/rs12061001

APA

Tmušić, G., Manfreda, S., Aasen, H., James, M. R., Gonçalves, G., Ben-Dor, E., Brook, A., Polinova, M., Arranz, J. J., Mészáros, J., Zhuang, R., Johansen, K., Malbeteau, Y., de Lima, I. P., Davids, C., Herban, S., & McCabe, M. F. (2020). Current practices in UAS-based environmental monitoring. Remote Sensing, 12(6). https://doi.org/10.3390/rs12061001

Vancouver

Tmušić G, Manfreda S, Aasen H, James MR, Gonçalves G, Ben-Dor E et al. Current practices in UAS-based environmental monitoring. Remote Sensing. 2020 Mar 20;12(6). doi: 10.3390/rs12061001

Author

Tmušić, G. ; Manfreda, S. ; Aasen, H. et al. / Current practices in UAS-based environmental monitoring. In: Remote Sensing. 2020 ; Vol. 12, No. 6.

Bibtex

@article{64044e93e1a940faba54b41bb5fdfd40,
title = "Current practices in UAS-based environmental monitoring",
abstract = "With the increasing role that unmanned aerial systems (UAS) are playing in data collection for environmental studies, two key challenges relate to harmonizing and providing standardized guidance for data collection, and also establishing protocols that are applicable across a broad range of environments and conditions. In this context, a network of scientists are cooperating within the framework of the Harmonious Project to develop and promote harmonized mapping strategies and disseminate operational guidance to ensure best practice for data collection and interpretation. The culmination of these efforts is summarized in the present manuscript. Through this synthesis study, we identify the many interdependencies of each step in the collection and processing chain, and outline approaches to formalize and ensure a successful workflow and product development. Given the number of environmental conditions, constraints, and variables that could possibly be explored from UAS platforms, it is impractical to provide protocols that can be applied universally under all scenarios. However, it is possible to collate and systematically order the fragmented knowledge on UAS collection and analysis to identify the best practices that can best ensure the streamlined and rigorous development of scientific products. {\textcopyright} 2020 by the authors. Licensee MDPI, Basel, Switzerland.",
keywords = "Effective workflow, Environmental monitoring, Guidelines, UAS-based mapping, Air navigation, Antennas, Mapping, Unmanned aerial vehicles (UAV), Environmental conditions, Environmental Monitoring, Environmental studies, Operational guidance, Scientific products, Unmanned aerial systems, Data acquisition",
author = "G. Tmu{\v s}i{\'c} and S. Manfreda and H. Aasen and M.R. James and G. Gon{\c c}alves and E. Ben-Dor and A. Brook and M. Polinova and J.J. Arranz and J. M{\'e}sz{\'a}ros and R. Zhuang and K. Johansen and Y. Malbeteau and {de Lima}, I.P. and C. Davids and S. Herban and M.F. McCabe",
year = "2020",
month = mar,
day = "20",
doi = "10.3390/rs12061001",
language = "English",
volume = "12",
journal = "Remote Sensing",
issn = "2072-4292",
publisher = "MDPI AG",
number = "6",

}

RIS

TY - JOUR

T1 - Current practices in UAS-based environmental monitoring

AU - Tmušić, G.

AU - Manfreda, S.

AU - Aasen, H.

AU - James, M.R.

AU - Gonçalves, G.

AU - Ben-Dor, E.

AU - Brook, A.

AU - Polinova, M.

AU - Arranz, J.J.

AU - Mészáros, J.

AU - Zhuang, R.

AU - Johansen, K.

AU - Malbeteau, Y.

AU - de Lima, I.P.

AU - Davids, C.

AU - Herban, S.

AU - McCabe, M.F.

PY - 2020/3/20

Y1 - 2020/3/20

N2 - With the increasing role that unmanned aerial systems (UAS) are playing in data collection for environmental studies, two key challenges relate to harmonizing and providing standardized guidance for data collection, and also establishing protocols that are applicable across a broad range of environments and conditions. In this context, a network of scientists are cooperating within the framework of the Harmonious Project to develop and promote harmonized mapping strategies and disseminate operational guidance to ensure best practice for data collection and interpretation. The culmination of these efforts is summarized in the present manuscript. Through this synthesis study, we identify the many interdependencies of each step in the collection and processing chain, and outline approaches to formalize and ensure a successful workflow and product development. Given the number of environmental conditions, constraints, and variables that could possibly be explored from UAS platforms, it is impractical to provide protocols that can be applied universally under all scenarios. However, it is possible to collate and systematically order the fragmented knowledge on UAS collection and analysis to identify the best practices that can best ensure the streamlined and rigorous development of scientific products. © 2020 by the authors. Licensee MDPI, Basel, Switzerland.

AB - With the increasing role that unmanned aerial systems (UAS) are playing in data collection for environmental studies, two key challenges relate to harmonizing and providing standardized guidance for data collection, and also establishing protocols that are applicable across a broad range of environments and conditions. In this context, a network of scientists are cooperating within the framework of the Harmonious Project to develop and promote harmonized mapping strategies and disseminate operational guidance to ensure best practice for data collection and interpretation. The culmination of these efforts is summarized in the present manuscript. Through this synthesis study, we identify the many interdependencies of each step in the collection and processing chain, and outline approaches to formalize and ensure a successful workflow and product development. Given the number of environmental conditions, constraints, and variables that could possibly be explored from UAS platforms, it is impractical to provide protocols that can be applied universally under all scenarios. However, it is possible to collate and systematically order the fragmented knowledge on UAS collection and analysis to identify the best practices that can best ensure the streamlined and rigorous development of scientific products. © 2020 by the authors. Licensee MDPI, Basel, Switzerland.

KW - Effective workflow

KW - Environmental monitoring

KW - Guidelines

KW - UAS-based mapping

KW - Air navigation

KW - Antennas

KW - Mapping

KW - Unmanned aerial vehicles (UAV)

KW - Environmental conditions

KW - Environmental Monitoring

KW - Environmental studies

KW - Operational guidance

KW - Scientific products

KW - Unmanned aerial systems

KW - Data acquisition

U2 - 10.3390/rs12061001

DO - 10.3390/rs12061001

M3 - Journal article

VL - 12

JO - Remote Sensing

JF - Remote Sensing

SN - 2072-4292

IS - 6

ER -